196-OR: The Long-Chain Fatty-Acid Receptor FFA4 Stimulates Insulin Secretion via Inhibition of Somatostatin Release from the Delta Cell

Abstract

The long-chain fatty-acid receptor FFA4 exerts beneficial effects on glucose homeostasis and insulin secretion and is considered a potential therapeutic target for type 2 diabetes. FFA4 is expressed in islets, but its precise mechanism of action remains unknown. Previous studies from our group suggest that FFA4 is expressed in delta cells and regulates somatostatin secretion. The objective of this study was to test the hypothesis that FFA4 agonists indirectly stimulate insulin secretion via inhibition of somatostatin release. In 1-h static incubations of isolated, wild-type mouse islets, the FFA4 agonist CpdA dose-dependently potentiated glucose-induced insulin secretion from 2.2±0.2 to 3.4±0.2 % of insulin content at the concentration of 50 μM (n=8; p<0.001), and simultaneously decreased somatostatin secretion from 28.4±2.1 to 10.5±0.9 pM (n=8; p<0.0001). No effect of CpdA on insulin or somatostatin secretion was observed in islets from mice that do not express somatostatin (insulin: 3.2±0.1 vs 2.9±0.4, n=6, NS; somatostatin: 11.4±1.2 vs 11.9±1.2, n=6, NS). No sex differences were observed. Likewise, in delta-cell deficient islets isolated from diphtheria toxin-treated male mice expressing the diphtheria toxin receptor under the somatostatin promoter, no effect of CpdA was observed on insulin or somatostatin release (insulin: 4.9±0.9 vs 4.1±0.8, n=3, NS; somatostatin: 10.1±4.9 vs 9.2±5.3, n=6, NS). We conclude that FFA4 stimulation of insulin secretion is exclusively mediated by inhibition of somatostatin secretion from delta cells. Disclosure L.Reininger: None. M.Ethier: None. C.Tremblay: None. J.Ghislain: None. M.Huising: Consultant; AstraZeneca, Research Support; Crinetics Pharmaceuticals, Inc. V.Poitout: Consultant; AstraZeneca. M.Flisher: None. Funding National Institutes of Health (R01DK132597)